Submicrosecond electro-optical switching of one-dimensional soft photonic crystals 被引量：4

导出

摘要 Soft photonic crystals are appealing due to their self-assembly ability,wide tunability,and multistimuli-responsiveness.However,their response time is relatively slow,ranging from milliseconds to minutes.Here,we report submicrosecond switching of chiral liquid crystals(LCs)with 1D photonic microstructures,where electric fields modify the orientational order of molecules and quench their fluctuations,rather than altering the orientation.Thus,the adjusted refractive indices result in a fast shift of the photonic bandgap,on the order of 100 ns,which is four orders of magnitude faster than conventional electro-optic switching in cholesterics.This work offers tremendous opportunities for soft photonic applications.

作者 Lingling Ma Chaoyi Li Luyao Sun Zhenpeng Song Yanqing Lu Bingxiang Li

机构地区 College of Electronic and Optical Engineering and College of Microelectronics National Laboratory of Solid State Microstructures Collaborative Innovation Center of Advanced Microstructures and College of Engineering and Applied Sciences

出处《Photonics Research》 SCIE EI CAS CSCD 2022年第3期786-792,共7页 光子学研究（英文版）

基金 National Key Research and Development Program of China(2021YFA1202000) National Natural Science Foundation of China(RK106LH21001,52003115) Natural Science Foundation of Jiangsu Province(BK20212004,BK20200320) Innovation and Entrepreneurship Program of Jiangsu Province.

关键词 FASTER ORDERS refractive

分类号 O734 [理学—晶体学]

引文网络
相关文献

参考文献4

1Yunke Zhou,Zhiyi Yuan,Xuerui Gong,Muhammad D.Birowosuto,Cuong Dang,Yu-Cheng Chen.Dynamic photonic barcodes for molecular detection based on cavity-enhanced energy transfer[J].Advanced Photonics,2020,2(6):69-77. 被引量：1
2Jianghao Xiong,Shin-Tson Wu.Planar liquid crystal polarization optics for augmented reality and virtual reality: from fundamentals to applications[J].eLight,2021,1(1):14-33. 被引量：60
3Yifeng Xiong,Fei Xu.Multifunctional integration on optical fiber tips: challenges and opportunities[J].Advanced Photonics,2020,2(6):23-46. 被引量：16
4Zhixiong Shen,Shenghang Zhou,Xinan Li,Shijun Ge,Peng Chen,Wei Hu,Yanqing Lu.Liquid crystal integrated metalens with tunable chromatic aberration[J].Advanced Photonics,2020,2(3):35-41. 被引量：22

二级参考文献17

1Hani J. Kbashi.Fabrication of Submicron-Diameter and Taper Fibers Using Chemical Etching[J].Journal of Materials Science & Technology,2012,28(4):308-312. 被引量：3
2Marco CONSALES Marco PISCO Andrea CUSANO.Lab-on-Fiber Technology： a New Avenue for Optical Nanosensors[J].Photonic Sensors,2012,2(4):289-314. 被引量：7
3Caibin YU,Li LIU,Xiaoxiao CHEN,Qunfeng LIU,Yuan GONG.Fiber-Optic Fabry-Perot Hydrogen Sensor Coated With Pd-Y Film[J].Photonic Sensors,2015,5(2):142-145. 被引量：4
4WEIGUANG LIU,BIN HU,ZONGDUO HUANG,HONGYU GUAN,HETING LI,XINKE WANG,YAN ZHANG,HONGXING YIN,XIAOLU XIONG,JUAN LIU,YONGTIAN WANG.Graphene-enabled electrically controlled terahertz meta-lens[J].Photonics Research,2018,6(7):703-708. 被引量：12
5Yun-Han LEE,Tao ZHAN,Shin-Ison WU.Prospects and challenges in augmented reality displays[J].Virtual Reality & Intelligent Hardware,2019,1(1):10-20. 被引量：10
6Xingjie Ni,Satoshi Ishii,Alexander V Kildishev,Vladimir M Shalaev.Ultra-thin, planar, Babinet-inverted plasmonic metalenses[J].Light(Science & Applications),2013,2(1):170-175. 被引量：38
7Jin-Hui Chen,Bi-Cai Zheng,Guang-Hao Shao,Shi-Jun Ge,Fei Xu,Yan-Qing Lu.An all-optical modulator based on a stereo graphene–microfiber structure[J].Light(Science & Applications),2015,4(1):42-46. 被引量：11
8Lei Wang,Xiao-Wen Lin,Wei Hu,Guang-Hao Shao,Peng Chen,Lan-Ju Liang,Biao-Bing Jin,Pei-Heng Wu,Hao Qian,Yi-Nong Lu,Xiao Liang,Zhi-Gang Zheng,Yan-Qing Lu.Broadband tunable liquid crystal terahertz waveplates driven with porous graphene electrodes[J].Light(Science & Applications),2015,4(1):477-482. 被引量：18
9Malcolm C Finlay,Charles A Mosse,Richard J Colchester,Sacha Noimark,Edward Z Zhang,Sebastien Ourselin,Paul C Beard,Richard J Schilling,Ivan P Parkin,Ioannis Papakonstantinou,Adrien E Desjardins.Through-needle all-optical ultrasound imaging in vivo: a preclinical swine study[J].Light(Science & Applications),2017,6(1):70-76. 被引量：9
10Xinghui Yin,Tobias Steinle,Lingling Huang,Thomas Taubner,Matthias Wuttig,Thomas Zentgraf,Harald Giessen.Beam switching and bifocal zoom lensing using active plasmonic metasurfaces[J].Light(Science & Applications),2017,6(1):363-369. 被引量：22

共引文献93

1王驰,郑园成,陈金波,孙建美,陈伟,陈斐璐,王飞.超小自聚焦光纤探头对光纤F-P干涉信号的影响[J].激光与光电子学进展,2023,60(1):87-93.
2王恋,陈雨豪,石静,杨晓占.Co-TCPP包覆薄芯光纤的CO传感器[J].激光与光电子学进展,2023,60(1):364-369.
3Hui Yang,Zhenwei Xie,Guanhai Li,Kai Ou,Feilong Yu,Hairong He,Hong Wang,Xiaocong Yuan.All-dielectric metasurface for fully resolving arbitrary beams on a higher-order Poincaré sphere[J].Photonics Research,2021,9(3):331-343. 被引量：2
4曹慧敏,吴赛博,王靖阁,胡伟.光取向液晶微结构及其光子元件[J].液晶与显示,2021,36(7):921-938. 被引量：6
5Yan-qing Lu,Yan Li.Planar liquid crystal polarization optics for near-eye displays[J].Light(Science & Applications),2021,10(7):1152-1154. 被引量：9
6赵杰,陈楠泓,陈俊龙,李牧云,钟锦耀,杨跃鑫,符晓,姚日晖,宁洪龙,彭俊彪.压电印刷OLED优化及其应用[J].液晶与显示,2021,36(10):1377-1387. 被引量：1
7Shitong Xu,Fei Fan,Hongzhong Cao,Yinghua Wang,Shengjiang Chang.Liquid crystal integrated metamaterial for multi-band terahertz linear polarization conversion[J].Chinese Optics Letters,2021,19(9):127-132. 被引量：6
8AMGED ALQULIAH,MOHAMED ELKABBASH,JINLUO CHENG,GOPAL VERMA,CHAUDRY SAJED SARAJ,WEI LI,CHUNLEI GUO.Reconfigurable metasurface-based 1×2 waveguide switch[J].Photonics Research,2021,9(10):2104-2115. 被引量：1
9Jianghao Xiong,En-Lin Hsiang,Ziqian He,Tao Zhan,Shin-Tson Wu.Augmented reality and virtual reality displays:emerging technologies and future perspectives[J].Light(Science & Applications),2021,10(11):2098-2127. 被引量：66
10Jianyu Hua,Erkai Hua,Fengbin Zhou,Jiacheng Shi,Chinhua Wang,Huigao Duan,Yueqiang Hu,Wen Qiao,Linsen Chen.Foveated glasses-free 3D display with ultrawide field of view via a large-scale 2D-metagrating complex[J].Light(Science & Applications),2021,10(11):2217-2225. 被引量：19

同被引文献31

1宋哲,刘立人,周煜,刘德安,任海霞.入射光偏振方向对LiNbO_3晶体近光轴电光调制的影响[J].中国激光,2005,32(3):319-322. 被引量：17
2董磊,卓壮,赵圣之.影响双块晶体电光开关消光比因素的分析[J].激光技术,2008,32(1):15-17. 被引量：3
3郑致刚,胡伟,诸戈,孙牧,沈冬,陆延青.Brief review of recent research on blue phase liquid crystal materials and devices[J].Chinese Optics Letters,2013,11(1):31-35. 被引量：1
4Honghong ZOU,Lei WANG,Chenghui ZENG,Xiaolei GAO,Qingqing WANG,Shengliang ZHONG.Rare-earth coordination polymer micro/nanomaterials: Preparation, properties and applications[J].Frontiers of Materials Science,2018,12(4):327-347. 被引量：3
5宋雅莉,王琼华.低电压高透过率的波纹电极透反蓝相液晶显示器[J].液晶与显示,2017,32(4):249-252. 被引量：5
6刘桢,沈冬,王骁乾,郑致刚.蓝相液晶材料与光子学器件研究进展[J].液晶与显示,2017,32(5):325-338. 被引量：10
7郑大怀,吴婧,商继芳,张玲,刘士国,孙军,孔勇发.电光调Q晶体研究进展[J].中国科学：技术科学,2017,47(11):1139-1148. 被引量：13
8王萌,杨槐.碳纳米管掺杂聚合物稳定蓝相液晶的电场响应性能[J].应用化学,2018,35(8):969-971. 被引量：9
9李清连,商继芳,吴婧,张玲,孙军.钽酸锂电光调Q晶体开关的制备研究[J].人工晶体学报,2019,48(5):812-816. 被引量：4
10Junyu Xiao,Ruiwen Xiao,Rongxuan Zhang,Zhixiong Shen,Wei Hu,Lei Wang,Yanqing Lu.Tunable terahertz absorber based on transparent and flexible metamaterial[J].Chinese Optics Letters,2020,18(9):69-73. 被引量：7

引证文献4

1Xuan Zhang,Yiyi Xu,Cristian Valenzuela,Xinfang Zhang,Ling Wang,Wei Feng,Quan Li.Liquid crystal-templated chiral nanomaterials: from chiral plasmonics to circularly polarized luminescence[J].Light(Science & Applications),2022,11(8):1753-1781. 被引量：13
2陈佳浩,刘娇,孙路瑶,宋振鹏,李超逸,马玲玲,陆延青,李炳祥.聚合物稳定双频蓝相液晶的亚微秒电光响应[J].液晶与显示,2023,38(1):18-23. 被引量：3
3商继芳,李清连,孙兴,陈铃,杜文静,李留帮.双晶电光Q开关消光比的研究[J].中国激光,2024,51(8):7-15.
4翟晓坤,王冬雪,邢淳梓,杨新苗,艾强,魏静,杨晨曦,李宇杰,戴海涛,马学凯,高廷阁.液晶在光学微腔中的研究进展[J].液晶与显示,2024,39(12):1581-1591.

二级引证文献16

1章欣然,张伟民,张茂鑫,张翱,吴倜,张春秀,于海峰.软物质中Frank-Kasper相研究进展[J].液晶与显示,2022,37(12):1520-1530.
2杨秀秀,田艺,杨忠强.液晶液滴制备及其在生物检测领域的应用[J].液晶与显示,2022,37(12):1531-1545.
3桑景新,梁立兵,张永芳,刘洋,孙嘉曈,赵曙光,Vladimir CHIGRINOV.氧化镍纳米颗粒对光驱动液晶显示的影响[J].液晶与显示,2023,38(1):40-48. 被引量：2
4沈源.电场驱动下向列相液晶中耗散型指向子的研究[J].液晶与显示,2023,38(1):95-103.
5胡琪,徐云浩,陈思雨,姜龙龙,邱龙臻,王晓鸿.基于手性聚噻吩嵌段共聚物的圆偏振光探测器[J].液晶与显示,2023,38(5):555-562.
6童颖萍,唐瑞琪,段然,陈影,赵东宇.纳米掺杂对液晶电光性能影响[J].液晶与显示,2023,38(9):1149-1163.
7窦韵洁,王泽宇,魏阳,马玲玲,陆延青.基于液晶功能表面的液滴输运研究[J].液晶与显示,2023,38(10):1322-1329. 被引量：4
8严静,范相文,屈科,于映,李若舟.多色柔性自支撑胆甾相液晶薄膜反射器件[J].液晶与显示,2023,38(10):1330-1337. 被引量：1
9Shi-Long Li,Zhao-Yi Chen,Peng Chen,Wei Hu,Chaohong Huang,Sen-Sen Li,Xuejia Hu,Yan-Qing Lu,Lu-Jian Chen.Geometric phase-encoded stimuli-responsive cholesteric liquid crystals for visualizing real-time remote monitoring:humidity sensing as a proof of concept[J].Light(Science & Applications),2024,13(2):283-293. 被引量：3
10阮巧慧,崔艳羽,林倬汉,张雪,张欣,李艳,马骧.在水相中通过手性配体直接合成手性魔幻尺寸团簇[J].Science China Materials,2024,67(7):2302-2310.

1Yuri M. Yevdokimov,Victor I. Salyanov,Sergey V. Akulinichev,Vladimir M. Skorkin,Pavel V. Spirin,Nataliya N. Orlova,Vladimir I. Popenko,Vladimir S. Prassolov.Novel Biomaterial for NCT - “Rigid” Particles of (DNA-gadolinium) Liquid-Crystalline Dispersions[J].Journal of Biomaterials and Nanobiotechnology,2011,2(3):281-292.
2Guram Chilaya,Andro Chanishvili,Gia Petriashvili,Riccardo Barberi,Maria Penelope De Santo,Mario Ariosto Matranga.Different Approaches of Employing Cholesteric Liquid Crystals in Dye Lasers[J].Materials Sciences and Applications,2011,2(2):116-129.
3吴妍(编译).体育课上的英文口令[J].疯狂英语（双语世界）,2022(1):37-38.
4吴丽燕.“原型”和“模型”理论在初中英语教学中的应用——以Unit 2 I became so bored with their orders that I wished theywould leave me alone为例[J].英语教师,2022,22(3):165-169.
5Feng Zhou,Cacere Jelah Nieva,Dianyuan Fan,Shunbin Lu,Wei Ji.Superior optical Kerr effects induced by two-dimensional excitons[J].Photonics Research,2022,10(3):834-842.
6Shuwen Xue,Chuanjie Hu,Miao Zhang,Huanyang Chen.Bioinspired lenses from cats' eyes[J].Chinese Optics Letters,2022,20(1):127-132.
7杜娟,松浦祐司.小瓶子的大智慧[J].可持续发展经济导刊,2022(3):59-61.
8Cuiping Ji,Jing Zeng,Sijia Qin,Min Chen,Limin Wu.Angle-independent responsive organogel retroreflective structural color film for colorimetric sensing of humidity and organic vapors[J].Chinese Chemical Letters,2021,32(11):3584-3590.
9Charlotte Bronte.TO A FRIEND At school abroad[J].英语学习,2021(9):27-31.
10陈妮妮.如何解两步混合运算应用题?[J].疯狂英语（双语世界）,2022(1):29-36.

Photonics Research

2022年第3期

浏览历史

内容加载中请稍等...